Agricultural mechanization in Africa south of the Sahara — especially for small farms and businesses — requires a new paradigm to meet the needs of the continent’s evolving farming systems. Can Asia, with its recent success in adopting mechanization, offer a model for Africa? An Evolving Paradigm of Agricultural Mechanization Development analyzes the experiences of eight Asian and five African countries. The authors explore crucial government roles in boosting and supporting mechanization, from import policies to promotion policies to public good policies. Potential approaches presented to facilitating mechanization in Africa include prioritizing market-led hiring services, eliminating distortions, and developing appropriate technologies for the African context. The role of agricultural mechanization within overall agricultural and rural transformation strategies in Africa is also discussed. The book’s recommendations and insights should be useful to national policymakers and the development community, who can adapt this knowledge to local contexts and use it as a foundation for further research.
New ideas and developed technologies in agricultural operations depend to a large extent on scientific research diversity. Their results and implementation are responsible for increased agricultural production. The dynamic nature of agricultural operations and the complexity of agricultural machinery are indices of such scientific research diversity as evident in the wide spread requirements in agricultural operation if increased production must be sustained. Extensive works on agricultural mechanization and machinery utilization in agricultural production documented in this eleven chapter book will go a long way to acquaint students and researchers with the principles of agricultural machinery and provide him with requisite knowledge and skills on various agricultural machinery operations for effective agricultural mechanization. The book thus discusses in details the basic concepts in the development of agricultural machinery and mechanization.
The agricultural industry is dealing with enormous challenges across the globe, including the limited availability of arable lands and fresh water, as well as the effect of climate change. Machinery plays a crucial role in agriculture and farming systems, in order to feed the world’s growing population. In the last decade, we have witnessed major advances in agricultural machinery and technologies, particularly as manufacturers and researchers develop and apply various novel ways of automation as well as the data and information gathering and analyzing capabilities of their machinery. This book presents the state-of-the-art information on the important innovations in the agricultural and horticultural industry. It reviews and presents different novel technologies and implementation of these technologies to optimize farming processes and food production. There are four sections, each addressing a specific area of development. Section I discusses the recent development of farm machinery and technology. Section II focuses on water and irrigation engineering. Section III covers harvesting and post-harvest technology. Section IV describes computer modelling and simulation. Each section highlights current industry trends and latest research progress. This book is ideal for those working in or are associated with the fields of agriculture, agri-food chain and technology development and promotion.
FAO is a global knowledge broker for the agri-food industry, including technologies for production and processing. In particular, the Agro-Industries Programme of FAO is increasingly tending to focus on appropriate input supply, innovation and value chain development. Improvements in these areas have the potential to sustain and improve livelihoods and well-being at whatever scale and in whatever region of the world. Within the World Congress on "Agricultural Engineering for a Better World," as a preparation for the challenges of the twenty-first century, FAO conducted two workshops. The first targeted the subject of "challenges for agricultural mechanization in sub-Saharan Africa," and the second focused on "using technology to add value and increase quality." This report contains the results of the Congress, and encourages both readers and decision-makers to consider the important role of engineering technologies for development and, indeed, for a better world. (Also available in French and Spanish)
This framework presents ten interrelated principles/elements to guide Sustainable Agricultural Mechanization in Africa (SAMA). Further, it presents the technical issues to be considered under SAMA and the options to be analysed at the country and sub regional levels. The ten key elements required in a framework for SAMA are as follows: The analysis in the framework calls for a specific approach, involving learning from other parts of the world where significant transformation of the agricultural mechanization sector has already occurred within a three-to-four decade time frame, and developing policies and programmes to realize Africa’s aspirations of Zero Hunger by 2025. This approach entails the identification and prioritization of relevant and interrelated elements to help countries develop strategies and practical development plans that create synergies in line with their agricultural transformation plans. Given the unique characteristics of each country and the diverse needs of Africa due to the ecological heterogeneity and the wide range of farm sizes, the framework avoids being prescriptive.
Sustainable agricultural mechanization covers all levels of farming and processing technologies, and takes into consideration technological, economic, social, environmental and cultural aspects when contributing to the sustainable development of agrifood systems. This publication strives to comprehensively and systematically summarize the status and strategies of China's agricultural mechanization development, its impacts, experiences and practices, and business models. Furthermore, the publication investigates the related investment and policy recommendations to reach the goal of agricultural and rural modernization by 2035, to drive smallholder farmers to enter modern agriculture, and to achieve sustainable development. It is estimated that by 2035, agricultural production in China will predominantly be mechanized. The concept of integrating mechanization and digitalization will be applied to agricultural mechanization management and operation monitoring and services, and mechanization will comprehensively support all agricultural and rural modernization. The development of sustainable agricultural mechanization in China provides cases and examples of innovations with global value, not only for developing countries but in particular for middle-income countries and emerging countries.
The Global Conference on Sustainable Agricultural Mechanization (GAMC) organized by FAO from 27 to 29 September 2023 provided a neutral platform for global stakeholders to discuss sustainable agricultural mechanization for agrifood systems transformation. The conference covered various themes like crop production, post-harvest and agroprocessing, climate change and resilience, digitalization and automation, supply chain and standards, models and multistakeholder engagement, and creating an enabling environment. The proceedings feature abstracts of speeches and presentations and culminate in a compelling call to action to guide future efforts for promoting sustainable agricultural mechanization towards 2030 and beyond.
Increasing agricultural mechanization has long been of interest to many African countries. Constrained by the limited area that can be cultivated through the use of the hand hoe and its association with perceptions of primitiveness and drudgery, agricultural mechanization and large-scale farming have long been a part of the vision of modernizing agriculture in many African countries, including Ghana.
This paper summarizes general demand- and supply-side issues for agricultural mechanization based on recent studies that focus on experiences and evidence from both Africa and Asia. The paper pro vides typologies of agricultural mechanization in Rwanda along with policy options within the context of its current mechanization support strategies. Provincial variations in agroecology and cropping systems, irrigated/rainfed systems, farm size, and labor use intensity, among other factors, characterize the key types of mechanization use in Rwanda. Support for mechanization in Rwanda can be broadly tailored to (a) irrigated medium-scale farmers in the Eastern province and Kigali; (b) rainfed medium-scale farmers in the Eastern and Southern provinces; (c) rainfed, small-scale highland farmers in the Northern province; and (d) irrigated small-scale farmers in the Western province. Recent experiences in other countries with rugged terrain and smallholder farming systems similar to Rwanda suggest that significant growth in the use of tractors is possible in the medium term among smallholders cultivating rainfed maize and legumes, in addition to irrigated rice. However, farm wages may still be too low in Rwanda and tractor-hiring fees may still be too high to induce a shift to mechanization in the short term. Therefore, it may be advisable for policy support for mechanization to focus on improving the understanding of mechanization needs among each type of farmers identified, knowledge of suitable machines, and required skills for their operations and maintenance. Such efforts should also balance the need to develop competitive markets and supply networks for promising machines, parts, and repair services at a viable and integrated market scale.
This research was undertaken to better assess the role of mechanization in the future of smallholder farmers in Nepal. It addresses the knowledge gap about whether promoting mechanization that is often complementary to land can effectively support smallholders, particularly in the face of a growing nonfarm sector. Rising rural wages in Nepal have increasingly put pressures on smallholder farmers, who tend to operate labor-intensive farming. Agricultural mechanization through custom hiring of tractor services has recently been considered as an option to mitigate the impact of rising labor costs for smallholders. However, the benefit of agricultural mechanization may still be better captured by exploiting the economies of scale of medium to large farmers rather than smallholders. In the meantime, the Nepal agricultural sector still employs a disproportionate share of workers given its share in the economy, potentially depressing agricultural labor productivity. It is therefore an important policy question whether to (1) continue supporting smallholders through custom-hired tractor services or (2) encourage smallholders to rent their farms out to medium-size or larger farmers, while helping smallholders specialize in the nonfarm sector, where their labor productivity may be higher. Using samples from the Terai zone—one of the agroecological belts in Nepal, largely consisting of lowland plains— from the Nepal Living Standards Survey, we assess whether the benefits of hiring in tractor services are greater among medium to large farmers than among smallholders, and how these benefits may depend on smallholders’ decision to remain in or leave farming. This study also contributes to the impact evaluation literature by showing that jointly assessing the effects of two treatments (whether to adopt custom-hired tractor services and continue farming, or to search for better options and specialize in off-farm activities) can lead to different implications than assessing them separately. Our analyses suggest that the government should continue to promote custom-hired tractor services not only for medium to large farmers but also for smallholders. If, over time, barriers to specializing in nonfarm activities are lowered and more smallholders start leaving farming, mechanization may no longer benefit the remaining smallholders. Support for mechanization can then be focused more on medium to large farmers, while types of support other than mechanization can be devised for the remaining smallholders.
